hand-work in connection with science, as science is largely of an experimental nature. It is a fact that may not have come to your attention that a large part of the best and most advanced scientific work involves a great deal of manual skill, the training of the hand and eye. It is impossible for one to be a first-class worker in science without this training in manipulation, and in handling apparatus and materials. In connection with the history work, especially with the younger children, hand-work is brought in in the way of making implements, weapons, tools, etc. Of course, the art work is another side—drawing, painting, and modeling. Logically, perhaps, the gymnasium work does not come in here, but as a means of developing moral and intellectual control through the medium of the body it certainly does. The children have one-half hour per day of this form of physical exercise. Along this line we have found that hand-work, in large variety and amount, is the most easy and natural method of keeping up the same attitude of the child in and out of the school. The child gets the largest part of his acquisitions through his bodily activities, until he learns to work systematically with the intellect. That is the purpose of this work in the school, to direct these activities, to systematize and organize them, so that they shall not be as haphazard and as wandering as they are outside of school. The problem of making these forms of practical activity work continuously and definitely together, leading from one factor of skill to another, from one intellectual difficulty to another, has been one of the most difficult, and at the same time one in which we have been most successful. The various kinds of work, carpentry, cooking, sewing, and weaving, are selected as involving different kinds of skill, and demanding different types of intellectual attitude on the part of the child, and because they represent some of the most important activities of the everyday outside world: the question of living under shelter, of daily food and clothing, of the home, of personal movement and exchange of goods. He gets also the training of sense organs, of touch, of sight, and the ability to coördinate eye and hand. He gets healthy exercise; for the child demands a much larger amount of physical activity than the formal program of the ordinary school permits. There is also a continual appeal to memory, to judgment, in adapting ends to means, a training in habits of order, industry, and neatness in the care of the tools and utensils, and in doing things in a systematic, instead of a haphazard, way. Then, again, these practical occupations make a background, especially in the earlier groups, for the later studies. The children get a good deal of chemistry in connection with cooking, of number work and geometrical principles in carpentry, and a good deal of geography in connection with their theoretical work in weaving and sewing. History also comes in with the origin and growth of various inventions, and their effects upon social life and political organization.
Perhaps more attention, upon the whole, has been given to our second point, that of positive subject-matter, than to any one other thing. On the history side the curriculum is now fairly well worked out. The younger children begin with the home and occupations of the home. In the sixth year the intention is that the children should study occupations outside the home, the larger social industries—farming, mining, lumber, etc.—that they may see the complex and various social industries on which life depends, while incidentally they investigate the use of the various materials—woods, metals, and the processes applied—thus getting a beginning of scientific study. The next year is given to the historical development of industry and invention—starting with man as a savage and carrying him through the typical phases of his progress upward, until the iron age is reached and man begins to enter upon a civilized career. The object of the study of primitive life is not to keep the child interested in lower and relatively savage stages, but to show him the steps of progress and development, especially along the line of invention, by which man was led into civilization. There is a certain nearness, after all, in the child to primitive forms of life. They are much more simple than existing institutions. By throwing the emphasis upon the progress of man, and upon the way advance has been made, we hope to avoid the objections that hold against paying too much attention to the crudities and distracting excitements of savage life.
The next two or three years, i.e., the fourth and fifth grades, and perhaps the sixth, will be devoted to American history. It is then that history, properly speaking, begins, as the study of primitive life can hardly be so called.
Then comes Greek history and Roman, in the regular chronological order, each year having its own work planned with reference to what has come before and after.
The science work was more difficult to arrange and systematize, because there was so little to follow—so little that has been already done in an organized way. We are now at work upon a program,1 and I shall not speak in detail about it. The first two or three years cultivate the children’s powers of observation, lead them to sympathetic interest in the habits of plants and animals, and to look at things with reference to their uses. Then the center of the work becomes geographical—the study of the earth, as the most central thing. From this almost all the work grows out, and to it the work goes back. Another standpoint in the science work is that of the application of natural forces to the service of man through machines. Last year a good deal of work was done in electricity (and will be repeated this year), based on the telegraph and telephone—taking up the things that can easily be grasped.
In mechanics they have studied locks and clocks with reference to the adaptation of the various parts of the machinery. All this work makes a most excellent basis for more formal physics later on. Cooking gives opportunity for getting a great many ideas of heat and water, and of their effects. The scientific work taken up in the school differs mainly from that of other schools in having the experimental part—physics and chemistry—emphasized, and is not confined simply to nature study—the study of plants and animals. Not that the latter is less valuable, but that we find it possible to introduce the physical aspects from the first.
If I do not spend a large amount of time in speaking of the music and art work, it is not because they are not considered valuable and important—certainly as much so as any other work done in the school, not only in the development of the child’s moral and aesthetic nature, but also from a strictly intellectual point of view. I know of no work in the school that better develops the power of attention, the habit of observation and of consecutiveness, of seeing parts in relation to a whole.
I shall now say a few words about the administrative side of the school. At the outset we mixed up the children of different ages and attainments as much as possible, believing there were mental advantages in the give-and-take thus secured, as well as the moral advantages in having the older assume certain responsibilities in the care of the younger. As the school grew, it became necessary to abandon the method, and to group the children with reference to their common capacities. These groupings, however, are based, not on ability to read and write, but upon similarity of mental attitude and interest, and upon general intellectual capacity and mental alertness. There are ways in which we are still trying to carry out the idea of mixing up the children, that we may not build the rigid stepladder system of the “graded” school. One step in this direction is having the children move about and come in contact with different teachers. While there are difficulties and evils connected with this, I think one of the most useful things in the school is that children come into intimate relation with a number of different personalities. The children also meet in general assemblies—for singing, and for the report of the whole school work as read by members of the different groups. The older children are also given a half hour a week in which to join some of the younger groups, and, if possible, as in hand-work, enter into the work of the younger children. In various ways we are attempting to keep a family spirit throughout the school, and not the feeling of isolated classes and grades.
The organization of the teaching force has gradually become departmental, as the needs of the work have indicated its chief branches. So we now have recognized divisions of Science, History, Domestic or Household Arts, Manual Training in the limited sense (wood and metals), Music, Art (that is, drawing, water colors, clay modeling, etc.), and Gymnasium. As the work goes on into the secondary period, the languages and mathematics will also of necessity assume a more differentiated and distinct position. As it is sometimes said that correlated or thoroughly harmonized work cannot be secured upon this basis, I am happy to say that our experience shows positively that there
